Floor panel and method for manufacturing a floor panel

ABSTRACT

A floor panel with a substrate and a decoration provided thereon. The substrate includes at least a foamed layer of thermoplastic material and at least a reinforcement layer. Additionally, a method for manufacturing such floor panels with a substrate and a decoration, where the substrate includes at least a foamed layer of thermoplastic material and at least a reinforcement layer.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit under 35 U.S.C. 119(e) to the U.S.provisional applications U.S. 62/420,094 filed on Nov. 10, 2016, whichis incorporated herein by reference.

The present invention relates to a floor panel and to a method formanufacturing a floor panel.

BACKGROUND OF THE INVENTION Related Art

More particularly, the invention relates to a floor panel with asubstrate and a decoration provided thereon. Such floor panels arewidely known as such, for example, in the form of MDF or HDF panels witha printed decoration, such as the laminate panels of WO 97/47834, in theform of vinyl panels, such as in WO 2013/026559, or in the form ofso-called WPC (Wood Plastic Composite) panels with a vinyl top layer,such as in WO 2014/065953.

In the case of WO 2013/026559, this relates to water-resistant floorpanels with a substrate of soft or flexible polyvinyl chloride or PVC.Moreover, the decoration and the provided thereabove finishing layer ofPVC offers a pleasant walking comfort without pronounced ticking sound,as this may be the case with laminate panels indeed. With the floorpanels of WO'559, however, there is the risk of telegraphy effects.Herein, after a certain period of time unevennesses in the underlyingsurface will become visible on the surface of the floor covering, whichis unattractive. Apart therefrom, such floor panel is relativelydifficult to install, as it, due to the flexibility of the carrier, willbend or deform easily. The soft substrate is sensitive to dimensionalchanges due to temperature variations. Problems may arise with localwarming of the floor covering, for example, with direct incidence ofsunlight at a window. At these locations, an expansion of the elementsmay take place. The restricted stiffness of the floor panels willprovide for that the floor covering will bulge locally. The possiblecoupling means, such as a locking tongue and groove, show a limitedstrength only. The soft finishing layer is sensitive to scratches andstains, even if a superficial UV hardened lacquer layer is provided ontop of the PVC finishing layer. Such superficial lacquer layer has alimited efficiency, as it can have been removed by walking thereonduring the first years of use already.

WO 2013/026559 to a certain extent offers a solution to the problemswith the dimensional stability of a substrate of soft PVC. By using areinforcement layer soaked in PVC, more particularly a glass fiber mathaving a weight of 65 grams per square meter, soaked in soft PVC, animproved interaction between the substrate and the glass fiber layer isobtained, as well as a limited improvement of the dimensional stabilitydue to temperature variations.

In the case of WO 2014/006593, floor panels are concerned with asubstrate of an extruded synthetic material composite with a veneerlayer, for example, a vinyl top layer, as a decoration. The syntheticmaterial composite may be obtained, for example, from, on the one hand,high-density polyethylene (HDPE), or PVC and, on the other hand, powderof bamboo, wood and/or cork. The substrate is stiff and offers a reducedrisk of said telegraphy effects. Moreover, possible coupling parts maybe provided in this stronger substrate. Such extruded substrates,however, tend to deform or warp, and the dimensional stability is of thesame level as with the vinyl panels of the above-mentioned WO'559.

SUMMARY OF THE INVENTION

The present invention primarily aims at an alternative floor panel,wherein, corresponding to the preferred embodiments, a solution isoffered to one or more problems with the floor panels of the state ofthe art.

To this aim, the invention, according to a first independent aspectthereof, relates to a floor panel having a substrate and a decorationprovided thereon, with the characteristic that the substrate comprisesat least a foamed layer of thermoplastic material and at least areinforcement layer. The inventor has found that a foamed layer has abetter dimensional stability than a non-foamed layer of the samethermoplastic material. Moreover, with a foamed layer, a reinforcementlayer has a more effective result for restricting possible dimensionalexpansions due to temperature variations.

It is noted that, within the scope of the present invention, by“substrate” reference is made to all portions of the floor panelsituated underneath said decoration. By a foamed layer, a layer isintended which comprises hollow spaces, preferably in such an amountthat the density of the material is reduced by at least 10% andpreferably at least 25%. Preferably, this relates to so-called “closedcell” foam. By non-foamed layer a layer is meant without hollow spaces,or anyhow at most with an amount of hollow spaces such that the densityis not or not more than 10% reduced, and preferably even not more than2%.

In general, it is also noted that, within the scope of the invention, afoamed layer does not necessarily have to be foamed in a uniform manner.It is possible that the foamed layer, across its thickness, comprises avarying proportion of hollow spaces. So, for example, the highestproportion may be achieved centrally in the layer, whereas on one ormore of the surfaces of such layer less foamed or even non-foamed zonesmay be present.

The respective foamed layer preferably is positioned centrally in thesubstrate or, in other words, forms at least a substrate portion presentin the center of the thickness of the substrate.

The respective foamed layer preferably forms at least 30 percent of thethickness of said substrate. Preferably, it even forms 40 percent ormore of the thickness of the substrate.

It is clear that it is not excluded that a plurality of foamed layersmight be present in said substrate. The overall thickness of the foamedlayers preferably is between 30 and 70 percent of the thickness of thefloor panel, or between 25 and 65 percent of the thickness of thesubstrate.

Preferably, said foamed layer concerns a foamed polyvinyl chloride (PVC)layer. Preferably, this relates to so-called rigid PVC, namely PVC whichis free from plasticizers or contains a content of plasticizers of 12phr or less. Preferably, the content of plasticizers is between 1 and 6phr. The stiffness of a layer of such hard foam is comparable to that ofa non-foamed layer; however, due to its lower weight it offers ergonomicadvantages during installation. It is evident that the invention is notlimited to foamed layers of PVC, but is also applied in floor panelswhere the foamed layer is formed of another thermoplastic material, suchas a phenol foam, polyurethane foam, polypropylene foam, polyethylenefoam or polyethylene terephthalate foam.

Preferably, the foamed layer comprises filler materials, such as chalkor talc. The inventor has found that talk moreover results in anincreased dimensional stability. Preferably, at least 30 phr mineralfillers are applied in said foamed layer.

The foamed layer can be obtained in various possible manners, of whichherein below the three most important possibilities are listed.

According to a first possibility, the foamed layer is obtained at leastby means of a mechanical foaming process. Hereby is meant that in therespective layer hollow spaces are formed by pushing the thermoplasticmaterial away by means of a foreign material. This may relate, forexample, to the use of expanding granules in a PVC-based layer. Moreparticularly, use can be made of the microspheres known from WO2013/178561. It is evident that a floor panel, which is at leastobtained according to this first possibility, will show the feature thatthe foamed layer contains hollow spaces, the walls of which are coatedby means of the walls of the respective expanded granules.

According to a second possibility, the foamed layer is obtained at leastby means of a chemical foaming process. By this is meant that in therespective layer hollow spaces are formed by means of a gaseous reactionproduct. For example, use can be made of azodicarbonamide. Thismaterial, when warming up, releases nitrogen gas which remains presentin the foamed layer in the form of bubbles.

According to a third possibility, the foamed layer is obtained at leastby means of fillers, wherein these fillers as such comprise one or morehollow spaces. Herein, for example, use can be made of the expandedcondition of the already mentioned microspheres.

Preferably, the aforementioned reinforcement layer relates to a glassfiber layer, such as a woven or non-woven glass fiber layer. Preferably,such reinforcement layer or glass fiber layer has a weight of at least30 g/m², and preferably less than 100 g/m². Better, the weight of thereinforcement layer of glass fiber layer concerns a weight between 35and 65 grams per square meter, wherein 50 g/m² is a good value.

The aforementioned reinforcement layer preferably is situated on one ofthe surfaces of the foamed layer. At that position, it may limit therisk of perforation or deformation of the respective surface of thefoamed layer, and it results in an increased resistance against bulgingof the respective surface. Preferably, the respective reinforcementlayer is situated on the surface of the foamed layer directed towardsthe aforementioned decoration. In this manner, an increased resistanceis obtained against indentation, for example, by chair or table legs.

According to the most preferred embodiment, said substrate further alsoencloses a second reinforcement layer. The two reinforcement layerspreferably enclose at least a portion of said foamed layer and in thismanner offer said effects of deformation resistance on both surfaces.Preferably, the two reinforcement layers are of the same kind, forexample, both are glass fiber layers with a weight situated between 30and 75 grams per square meter. Contrary to his expectations, theinventor has found that, in view of an improvement of the dimensionalstability, it is more important to apply two reinforcement layers thanchoosing the weight or the strength of the separate reinforcement layersas high as possible. Thus, two reinforcement layers of a limited weightmay be used, which is economically advantageous. So, for example, twoglass fiber layers of 50 grams per square meter, or approximately 50grams per square meter, may be used.

In general, it is also noted that in the case that more than onereinforcement layer is present in the floor panel, the overall weight ofthe present reinforcement layers preferably is less than 150 grams persquare meter.

According to an important embodiment, said substrate preferably furtheralso comprises at least a not yet foamed layer of a thermoplasticmaterial. Such non-foamed layer preferably is situated at such aposition in the substrate that it is entirely situated out of thecenter. As aforementioned, it is preferably the foamed layer that ispositioned centrally in the substrate. The availability of a non-foamedlayer in a floor panel, which further, according to the invention,comprises a foamed layer and a reinforcement layer, forms a barrieragainst telegraphy effects and, depending on the position of thisnon-foamed layer, may lead to various other advantages.

Preferably, the aforementioned non-foamed layer is adjacent to one ofthe surfaces of the aforementioned foamed layer and/or to thereinforcement layer possibly provided on that surface of the foamedlayer. In case that the respective surface is directed towards saiddecoration, by means of said non-foamed layer additional resistanceagainst indentation is obtained. In that the decoration in this manneris provided on a more stable underlying surface, the impact resistanceof the floor panel as a whole is improved.

As aforementioned, the non-foamed layer preferably is positioned off thecenter of the substrate. In this manner, an increased bending stiffnessof the substrate, and thus the entire floor panel, is obtained.

Preferably, the aforementioned non-foamed layer contains the samethermoplastic material as the aforementioned foamed layer or is based onthe same thermoplastic material. Of course, it may have a differentcontent of additives, such as plasticizers and/or fillers.

Preferably, said non-foamed layer is free from plasticizers of comprisesa content of plasticizers which is smaller than 12 phr, and still betteris smaller than 7 phr.

Suitable plasticizers for polyvinylchloride concern, amongst others,DINP, DOTP and DINCH.

According to an important embodiment, the aforementioned substratefurther also comprises at least a second non-foamed layer ofthermoplastic material, wherein the respective non-foamed layers encloseat least a portion of said foamed layer. According to this embodiment,an interesting composition of the substrate is obtained, which islight-weight and still shows a high bending stiffness. Moreover, suchcomposition results in a stable substrate or substrate portion.Preferably, said substrate further comprises at least a third non-foamedlayer of thermoplastic material, wherein this third non-foamed layer issituated between the decoration and at least one of the aforementionedfirst and second non-foamed layers. Preferably, the third non-foamedlayer is situated between the decoration and the whole of the foamedlayer and the first and second non-foamed layers. The features of theaforementioned third non-foamed layer, and more particularly thesoftness or compressibility thereof, can be matched to the desiredfunction of this third non-foamed layer. So, for example, it maycomprise a content of plasticizer which is higher than the content ofplasticizer which possibly is present in said first and/or secondnon-foamed layer. When such layer is situated at a position between thedecoration and the whole of the foamed layer and the first and secondnon-foamed layers, it may effect a certain sound damping which increaseswalking comfort, and it offers advantages in terms of productiontechnique. So, for example, indentations, which are provided on thesurface of the floor panel, may continue up into this third non-foamedlayer, whereby indentations can be obtained with a depth of more than0.1 mm or even of 0.4 mm or more. In such case, the aforementioned thirdnon-foamed layer preferably is situated directly underneath theaforementioned decoration, or at least at a distance of less than 0.15mm underneath the decoration. With such indentations, said decorationitself also is brought out of the plane, such that very livelyimitations of, for example, wood or stone surfaces can be obtained.

In general, said substrate preferably further also comprises at leastanother layer of thermoplastic material, wherein this thermoplasticmaterial contains plasticizers with a content that is larger than thepossible plasticizer content in said foamed layer. Herein, this possiblymay concern said third non-foamed layer. However, it is evident thatsuch layer is also of interest when said first and/or second non-foamedlayers are not present. Moreover, the layer with the higher plasticizercontent possibly may be foamed, however, not necessarily. Preferably,said layer with the higher plasticizer content is situated between saidfoamed layer and said decoration. In this manner, the advantages ofsound damping and the advantages in terms of technical production, whichare mentioned herein above in connection with the third non-foamedlayer, can be achieved here as well. Preferably, said layer with thehigher plasticizer content contains the same thermoplastic material assaid foamed layer, namely preferably polyvinyl chloride (PVC).Preferably, said layer with the higher plasticizer content is notfoamed.

According to a most preferred embodiment, the substrate comprises afoamed layer of a thermoplastic material, preferably of PVC with aplasticizer content of less than 12 phr or without plasticizer, whereinthe substrate further also comprises one or more non-foamed layers onboth surfaces of the foamed layer, also each time preferably of PVC witha plasticizer content of less than 12 phr, wherein the ratio of thethickness of all non-foamed layers on the one surface to the thicknessof the non-foamed layers on the other surface of the foamed layer isbetween 0.6 and 1.70 or still better between 0.75 and 1.33. By makingthis whole of non-foamed layers underneath and above the foamed layerapproximately equally thick, or at least with a comparable thicknesswithin said ratio, a stable sandwich is created. Preferably, the wholeof non-foamed layers at the lower surface is thinner than the whole ofnon-foamed layers at the upper surface of the foamed layer; however,within said ratio. In such case the average plasticizer content of thenon-foamed layers at the upper surface preferably is higher than theaverage plasticizer content of the non-foamed layers at the lowersurface. It is clear that according to the invention the substrate alsoencloses at least a reinforcement layer. Preferably, at least tworeinforcement layers are applied, namely preferably each time one persurface of the aforementioned foamed layer. These reinforcement layersthen preferably each time form the separation between the foamed layerand the aforementioned whole of non-foamed layers.

Preferably, said decoration comprises a printed motif. Such printedmotif can be provided on a thermoplastic foil, for example, a PVC foil.Within the scope of the present invention, such foil, in the presentcase, is seen as a component of the aforementioned decoration and thusnot as a part of the substrate. Instead of using a foil, a print may beused, which is performed on the substrate, with the intermediary ofprimer layers, for example, obtained by means of white PVC plastisol,wherein these primer layers, in the scope of the present invention andin the present case, thus are also considered as forming part of saiddecoration.

Preferably, the printed motif concerns a pattern of wood nerves and/orstone. Preferably, the floor panel shows the motif of just one woodplank.

Although printed motifs are preferred, it is not excluded that thedecoration might be formed by, for example, veneer of real wood orveneer of real stone, or by a consolidated mixture of powders, forexample, PVC powders or PVC granulates.

Preferably, the floor panel further also comprises a translucent ortransparent wear layer which is provided above said decoration.Preferably, such wear layer substantially consists of thermoplasticmaterial, preferably PVC, for example, with a thickness between 0.15 and0.75 millimeter. However, such wear layer preferably also shows asuperficial lacquer layer. Examples of suitable lacquer layers arelacquer layers based on urethane acrylates, polyester acrylates and/orepoxide acrylates. Preferably, this relates to lacquer layers which arecured by means of UV radiation or excimer radiation. The respectivelacquer layer may comprise hard particles, for example, of aluminumoxide and/or silica in order to achieve an increased wear resistance.

It is noted that the embodiments of the present invention, wherein oneor more layers with a low plasticizer content or without a plasticizerare situated between the reinforcement layer and the decoration, offerparticular advantages in respect to the choice of the lacquer layer. Towit, it may be chosen for a more efficient lacquer layer, whereas therisk of undesired side effects remains limited. To wit, more effectivelacquer layers will show a certain shrinkage and as a result may lead toraised edges in the case that soft substrates are applied. The presenceof the layers without plasticizer or with a limited content ofplasticizer, for example, less than 12 phr or less than 7 phr close tothe surface of the floor panel, limits this risk. A good choice for anefficient lacquer is a lacquer based on urethane acrylate, with acontent of hard particles, such as aluminum oxide and/or silica, of morethan 15 percent by weight, or even of 25 percent by weight or more. Thelacquer layer may be made thicker than usual, for example, with athickness larger than 20 micrometers, such that it will longer stayeffective. A larger thickness of the lacquer layer also allows applyingcoarser hard particles, which then is advantageous in respect to wearresistance. Preferably, hard particles are applied having an averageparticle size of more than 10 micrometer.

Preferably, the floor panel, and preferably the substrate, viewed inthickness, comprises at least 2 millimeters of thermoplastic materialthat is free from plasticizers or shows a plasticizer content of lessthan 12 phr or still better of less than 7 phr. The inventor has foundthat this amount of hard thermoplastic material is sufficient to excludethe most important telegraphy effects. It is clear that, according tothe invention, this thickness can be formed by foamed or non-foamedlayers.

Preferably, the floor panel, viewed in thickness, comprises maximum 5 orstill better maximum 3 millimeters of foamed thermoplastic material.Preferably, the foamed layer of the invention shows a thickness ofmaximum 4 millimeters, wherein said foamed layer then, asaforementioned, preferably is present centrally in the substrate.

Preferably, said substrate consists, for at least 40 percent of itsthickness, of said foamed layer, wherein the remaining substratematerial preferably is unfoamed. As an alternative, the substrate, closeto its lower surface, may also show an additional foamed layer, suchindependent from the thickness of the first foamed layer, whichpreferably, as aforementioned, is positioned centrally in the substrate.Said additional foamed layer preferably also comprises thermoplasticmaterial. Although it is not excluded that it consists of the samethermoplastic material as the foamed layer, it is preferably,independent from the material of the foamed layer, based onpolyethylene. This may relate, for example, to a layer of cross-linkedor interconnected polyethylene (XPE) having a thickness of 0.7 to 3 mm.

The various substrate layers can be realized in many different mannersand can be attached on top of each other by means of a thermallaminating process. In the case that the substrate shows an additionalfoamed layer at its underside, this layer preferably is attached to theremaining substrate portions by means of a glue connection.

Preferably, one or more of the thermoplastic layers of the substrate areobtained by means of strewing and consolidating at least theaforementioned thermoplastic material, whether or not in granulate form.Strewing treatments for manufacturing floor panels are known as such,for example, from WO 2013/179261.

The floor panels of the invention preferably can be applied forrealizing a floating floor covering. To this aim, they may be providedwith profiles on one or more edges. The layer composition of the floorpanels of the invention may show various synergetic effects with theactual form of such profiles. Below, a number of preferredcharacteristics of such profiles will be listed.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two such floor panels together, wherein at therespective edges a locking is effected at least in a vertical directionperpendicular to the plane of the panels, wherein at least one of theaforementioned edges is provided with a groove, the deepest point ofwhich is situated in said foamed layer. Realizing the groove at leastpartially in the foamed material offers advantages in respect todimensional stability. Preferably, said reinforcement layer extendsuninterruptedly in one of the lips which border the aforementionedgroove. In the case that the substrate shows two reinforcement layers,those preferably each extend in at least a portion of one of these lips,namely one in the upper groove lip and one in the lower groove lip.Preferably, the reinforcement layers are at least uninterrupted up tothe groove opening, namely there, where the distal end of the shortestof the respective lips is situated. According to this last possibility,a very stable vertical locking is obtained between the floor panels, andthe risk of raised edges on the surface of the floor panels isminimized. It is clear that the respective groove preferably cooperateswith a tongue on an opposite edge of a similar floor panel or with aseparate connection piece which also cooperates with an opposite edge ofa similar floor panel. In both cases in a coupled condition of two ofsuch floor panels preferably one or more pairs of vertically activelocking surfaces are created. Preferably, at least one such pair issituated in the aforementioned groove, namely on one or both groovelips, wherein said reinforcement layer or reinforcement layers thenpreferably extend uninterruptedly up to underneath the respective pairof vertically active locking surfaces. Preferably, at least one of saidpairs, and still better both pairs of vertically active locking surfacesare formed on the material of the aforementioned foamed layer. Use canbe made of a certain tension on the respective contact surfaces, bywhich a very stable connection is obtained. Such tension may berealized, for example, by providing an excess of material at thelocation of these contact surfaces. By a good choice for the position ofthe reinforcement layer or layers and the possible non-foamed layers, itmay be prevented that the possible tension propagates towards thesurface of the floor panel.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a horizontaldirection in the plane of the panels and perpendicular to the edges,wherein at least one of the aforementioned edges is provided with anupward-directed hook-shaped locking part, wherein said locking partextends at least partially in a portion of the substrate which is freefrom said foamed layer. By means of this characteristic, a well-definedhorizontal locking is obtained. To wit, non-foamed layers can be treatedwith higher precision.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a verticaldirection perpendicular to the plane of the panels, wherein at least oneof the aforementioned edges is provided with a groove, wherein thisgroove is bordered by an upper lip and a lower lip, and wherein theupper surface of the lower lip is at least partially formed in saidfoamed layer. It is advantageous to provide the lower lip in thismaterial, as it, as mentioned above, shows a good dimensional stability.This characteristic leads to an improved mechanical coupling, whereinthe risk of gap formation between the coupled edges is restricted. Ofcourse, it is not excluded that the aforementioned upper surface of thelower lip also is at least partially formed in a portion of thesubstrate that is free from said foamed layer, for example, a portion ofthe upper surface which participates in a possible locking in horizontaldirection.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a verticaldirection perpendicular to the plane of the panels, wherein at least oneof the aforementioned edges is provided with a groove, wherein thisgroove is bordered by an upper lip and a lower lip and wherein the lowersurface of the upper lip is at least partially formed in said foamedlayer.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a verticaldirection perpendicular to the plane of the panels, wherein at least oneof the aforementioned edges is provided with a groove, wherein thisgroove is bordered by an upper lip and a lower lip and wherein the lowersurface of the upper lip is at least partially formed in a portion ofthe substrate that is free from said foamed layer.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a verticaldirection perpendicular to the plane of the panels, as well as in ahorizontal direction in the plane of the floor panels and perpendicularto the respective edges, wherein said locking in vertical direction isprovided by at least a pair of cooperating contact surfaces formed insaid foamed layer, whereas said locking in horizontal direction isprovided by at least a pair of cooperating contact surfaces formed by aportion of the substrate that is free from said foamed layer.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a verticaldirection perpendicular to the plane of the panels, as well as in ahorizontal direction in the plane of the floor panels and perpendicularto the respective edges, wherein said locking in vertical direction isprovided by two pairs of cooperating contact surfaces, wherein a firstpair is formed in said foamed layer, whereas a second pair is formed bya portion of the substrate that is free from said foamed layer.

Preferably, the floor panel of the invention shows the characteristicthat, on at least two opposite edges, it is provided with coupling meanswhich allow coupling two of such floor panels to each other, wherein atthe respective edges a locking is effected at least in a verticaldirection perpendicular to the plane of the panels, wherein at least oneof the aforementioned edges is provided with a groove, wherein thisgroove is bordered by an upper lip and a lower lip and wherein saidreinforcement layer extends in said upper lip.

In general, it is clear that the invention preferably is applied withfloor panels which, on at least one pair of edges, are provided withmechanical coupling means allowing to couple two of such floor panels toeach other, in such a manner that a locking is created in a verticaldirection perpendicular to the plane of the coupled panels, as well asin a horizontal direction perpendicular to the coupled edge and in theplane of the panels. Preferably, the coupling means also show one or acombination of two or more of the following features:

-   -   the feature that the mechanical coupling means or coupling parts        substantially are realized as a tongue and a groove bordered by        an upper lip and a lower lip, wherein this tongue and groove        substantially are responsible for the locking in said vertical        direction, and wherein the tongue and the groove are provided        with additional locking parts, substantially responsible for the        locking in said horizontal direction. Preferably, the locking        parts comprise a locking groove on the lower side of the edge        with the tongue, and a hook-shaped part provided on the lower        groove lip. Such coupling means and locking parts are known, for        example, from WO 97/47834;    -   the feature that the mechanical coupling means or coupling parts        press the coupled floor panels against each other, for example,        in that these mechanical coupling means are realized with a        so-called pretension, as is known as such from EP 1 026 341. The        tensioning force with which the floor panels are pressed against        each other or towards each other may be obtained, for example,        in combination with the above-mentioned feature, by means of a        lower lip which is bent out in coupled position, which, in an        attempt to spring back, presses against the lower side of the        tongue;    -   the feature that the mechanical coupling means allow a coupling        by means of a horizontal, or quasi horizontal, shifting movement        of the panels towards each other;    -   the feature that the mechanical coupling means allow a coupling        by means of a turning movement W along the respective edges;    -   the feature that the mechanical coupling means allow a coupling        by means of a downward-directed movement of a male coupling        part, for example, with a tongue, into a female coupling part,        for example, with a groove;    -   the feature that the mechanical coupling means, or at least the        pertaining upper edge, is realized by means of a milling        treatment with rotating milling tools.

Preferably, the substrate of the floor panel of the invention has athickness of 4 to 8 millimeters.

With the same aim as in the first aspect, the invention, according to anindependent second aspect thereof, relates to a method for manufacturinga floor panel, wherein this floor panel comprises at least a substrateand a provided thereon decoration, wherein the method for forming thesubstrate comprises at least the following steps:

-   -   the step of providing a prefabricated sheet, preferably a glass        fiber layer;    -   the step of providing thermoplastic material;    -   the step of foaming said thermoplastic material for forming a        foamed substrate or substrate portion, wherein the foaming takes        place in the presence of said prefabricated sheet.

As the foaming takes place in the presence of said prefabricated sheet,various advantageous effects can be achieved according to the nature ofthe prefabricated sheet and its position in respect to the foamingmaterial.

Preferably, said step of providing thermoplastic material comprises atleast a strewing treatment. Preferably, the strewing treatment isperformed with a so-called dry-blend, rather than with granulates.

For foaming, use can be made of the also above-mentioned mechanicalfoaming as well as of chemical foaming.

Preferably, the step of foaming is performed between the pressing beltsof a continuous press. In this manner, the thickness of the obtainedsubstrate or substrate portion can be kept under control to a certainextent.

Preferably, during the step of foaming also a consolidation is performedof the material of the respective layer, and/or the prefabricated sheetis connected to the respective substrate or substrate portion.

Preferably, at least the foaming and consolidating is performed in thesame press treatment.

As aforementioned, the prefabricated sheet preferably relates to a glassfiber layer. Herein, this may relate to a woven or non-woven.Preferably, the reinforcement layer or glass fiber layer has a weight ofat least 30 grams per square meter, however, preferably less than 100grams per square meter.

In the method of the second aspect, the prefabricated sheet may performvarious possible functions, some of which are listed up below, withoutstriving to be exhaustive.

According to a first possibility, said prefabricated sheet forms acarrier for the respective thermoplastic material and/or for thethermoplastic material of another substrate portion. In this manner, theprefabricated sheet allows for a simple production, which possibly maybe performed in a continuous manner.

According to a second possibility, said prefabricated sheet forms aseparation between said thermoplastic material of the foamed layer and afurther layer of thermoplastic material. This embodiment is ofparticular importance when one or more of these layers are provided bymeans of a strewing treatment or in liquid phase. The prefabricatedsheet at least to a certain extent prevents the mixing of the materialof the layers it is separating. This is relevant for reliably settingthe thickness of the substrate portions above and underneath therespective prefabricated sheet, and for maintaining the possiblydifferent compositions of the respective substrate portions. Preferably,the foamed layer as well as said further layer initially is provided asa strewn thermoplastic material and are they consolidated together inthe presence of the prefabricated sheet. As aforementioned, thecomposition of the thermoplastic material of said further layer candiffer from the composition of said foamed layer.

According to a third possibility, said prefabricated sheet relates to areinforcement layer, which is in particular the case with a glass fiberlayer.

According to a particular embodiment of the method of the invention,said prefabricated sheet is connected under tension to saidthermoplastic material. As the sheet is under tension, variousadvantageous effects can be achieved in the production. So, for example,during foaming, consolidating and/or connecting at least a shrinkage mayarise in said foamed layer. Such shrinkage results in a compression ofthe prefabricated sheet, such that this sheet, with a possible expansionof the substrate due to temperature variations, only becomes active whenthe compression has been withdrawn again. Thus, the prefabricated sheetbecomes active with a delay only and not during the first expansion. Byapplying, according to the present particular embodiment, a tension, theprefabricated sheet already can become active with a much smallerexpansion of the substrate. Preferably, said tension in theprefabricated sheet leads to an expansion in this sheet which is atleast 20% of the aforementioned shrinkage. In this manner, it isguaranteed that the prefabricated sheet is already active as astabilizer in the obtained substrate or substrate portion with theoccurrence of expansion values which are 80% of said shrinkage. Thehigher the tension in the sheet during production, the sooner theprefabricated sheet, preferably a glass fiber layer, can become active.

Preferably, the method further also comprises the step of providing atleast another substrate layer of thermoplastic material, wherein thisthermoplastic material comprises plasticizers with a content higher thanthe possible content of plasticizer in said foamed layer. Preferably,the respective substrate layer is provided in liquid form on theaforementioned, already formed substrate portion with the foamed layer.

Preferably, the method of the second aspect further also comprises thestep of providing a decoration on said substrate or substrate portion.Such decoration may comprise, for example, a printed foil.

It is clear that the method of the second aspect can be excellently usedfor manufacturing the floor panels of the first aspect and the preferredembodiments thereof. Thus, further it is also clear that the compositionof the various substrate portions of the first aspect can correspond tothe composition of the thermoplastic material of the second aspect.

BRIEF DESCRIPTION OF THE DRAWINGS

With the intention of better showing the characteristics of theinvention, herein below, as an example without any limitative character,some preferred embodiments are described, with reference to theaccompanying drawings, wherein:

FIG. 1 represents a floor panel having the characteristics of theinvention;

FIG. 2, at a larger scale, represents a cross-section according to theline II-II indicated in FIG. 1;

FIG. 3, at the same scale, represents the coupled condition of two ofsuch floor panels;

FIGS. 4 to 10, in a similar view, represent variants;

FIG. 11, at a larger scale, represents a cross-section according to theline XI-XI indicated in FIG. 1;

FIGS. 12 to 14, in a similar view, represent variants; and

FIG. 15 schematically represents some steps in a method according to theinvention.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 represents a rectangular floor panel 1.

FIG. 2 clearly shows that the floor panel 1 comprises a substrate 2 anda decoration 3 provided thereon.

The substrate 2 comprises a foamed layer 4 of thermoplastic material, inthis case polyvinyl chloride (PVC). This foamed layer 4 is positionedsuch that it is at least centrally present in the substrate 2, namely onthe central line C. In this case, the thickness T1 of the foamed layerforms more than 40 percent of the thickness T2 of the substrate. For therest, the substrate 2 in this case only comprises not yet foamed layers5-6-7.

The substrate 2 of the floor panel 1 from the example of FIGS. 1 and 2comprises a first and a second reinforcement layer 8-9, in this caseglass fiber layers, more particularly glass fiber mats (nonwoven). Afirst reinforcement layer 8 is situated on the surface 10, which isdirected towards the decoration 3, of the foamed layer 4 and, togetherwith the second reinforcement layer 9, it encloses the foamed layer 4.Said second reinforcement layer 9 herein is situated on the oppositesurface 11 of the foamed layer 4.

Said decoration 3 comprises a printed motif and represents a singlewooden plank. The printed motif is provided on a thermoplastic foil 12,namely a PVC foil. Further, the floor panel 1 comprises a transparent ortranslucent wear layer 13, which is provided above said decoration 3.

In the example, said non-foamed layers 5-6-7 comprise a first non-foamedlayer 5 and a second non-foamed layer 6, which respectively are adjacentto said surfaces 10-11 of the foamed layer 4, and, in this case, also tothe reinforcement layers 8-9 present there. These first and secondnon-foamed layers 5-6 consist of the same thermoplastic material, namelyPVC, as the foamed layer 4, however, preferably contain a higher contentof fillers, such as chalk or talc. The floor panel of FIG. 2 forms anexample of a substrate 2 where the respective non-foamed layers 5-6enclose the foamed layer 4.

The substrate 2 of FIG. 2 further also comprises a third non-foamedlayer 7 of thermoplastic material. This third non-foamed layer 7 issituated between the decoration 3 and said first non-foamed layer 5 andcontains a content of plasticizer which is higher than the plasticizercontent possibly present in the foamed layer 4 and/or is higher than theplasticizer content possibly present in the first and/or secondnon-foamed layer 5-6.

Preferably, the non-foamed layer 6 on the lower surface 11 of the foamedlayer 4, namely the second non-foamed layer 6, is made thicker than saidfirst foamed layer 5 on the upper surface 10 of the foamed layer 4, forexample, with a thickness T6 which is larger than 1.5 times thethickness T5 of the first non-foamed layer 5. Preferably, the sum of thethickness T5 of the first non-foamed layer 5 and the thickness T7 of thethird non-foamed layer 7 is approximately equal to, equal to or largerthan the thickness T6 of the second non-foamed layer 6, preferably atleast 10 percent larger, however, less than 50 percent larger. In thismanner, the second foamed layer 6 can counteract possibly remainingtensions in the first and third foamed layers 5-7 in an optimum manner.

The substrate 2 of the floor panel 1 of FIG. 4 forms an example of themost preferred embodiment mentioned in the introduction, wherein thesubstrate 2 comprises a foamed layer 4 of thermoplastic material,preferably of PVC with a plasticizer content lower than 12 phr orwithout plasticizer, and wherein the substrate 2 further also shows oneor more non-foamed layers 5-6-7 on both surfaces 10-11 of the foamedlayer 4, which non-foamed layers respectively also being preferably ofPVC with a plasticizer content of less than 12 phr. The ratio of theoverall thickness of all non-foamed layers 6 on the one surface 11 tothe thickness of the non-foamed layers 5-7 on the other surface 10 ofthe foamed layer 4 is between 0.75 and 1.33, namely, in this caseapproximately 0.8. The whole of non-foamed layers 6 in this case isthinner on the lower surface 11 than the whole of non-foamed layers 5-7on the upper surface 10 of the foamed layer 4; however, within saidratio. The average plasticizer content of the non-foamed layers 5-7 onthe upper surface 10 is higher than the average plasticizer content ofthe non-foamed layers 6 on the lower surface 11, as the aforementionedthird non-foamed layer 7 contains a higher plasticizer content than thepossible plasticizer content in the first and second non-foamed layer5-6. In the example, said reinforcement layers 8, 9 respectively formthe separation between the foamed layer 4 and said whole of non-foamedlayers.

The floor panel 1 from the example is, at least on the two opposite longedges 14-15, provided with coupling means 16 allowing to couple two ofsuch floor panels 1 to each other, wherein, as represented in FIG. 3, alocking is effected at the respective edges 14-15 in a verticaldirection V perpendicular to the plane of the panels 1, as well as in ahorizontal direction H perpendicular to the respective edges and in theplane of the panels 1. To this aim, the panel 1, on at least one of itslong edges 15, is provided with a groove 17, wherein the deepest point18 of this groove 17 is situated in said foamed layer 4. In this case,the groove 17 is provided for cooperation with a tongue 19 on theopposite edge 14 and is bordered by an upper lip 20 and a lower lip 21,wherein the lower lip 21, in distal direction, extends to beyond theupper lip 20, or, in other words, beyond the groove opening 22. FIG. 2represents that the tongue 19 can be inserted into the groove 18 bymeans of a turning movement W around the respective edges 14-15.

In this case, the upper surface 23 of the lower lip 21 is entirelyformed of the material of said foamed layer 4, and the lower lip 21, inthe proximity of its distal end 24, is provided with a hook-shapedlocking part 25, which in this case also consists of material of thefoamed layer 4. The hook-shaped part 25 is intended for, in coupledcondition, cooperating with a locking groove 26 on the lower side of theedge 14 which is provided with said tongue 19, and effects said lockingin horizontal direction H. To this aim, a pair of horizontally activecontact surfaces 27-28 is formed between said hook-shaped part 25 andthe locking groove 26. The contact surfaces 27-28 are formed on thematerial of the foamed layer 4.

In the example, the lower surface 29 of the upper lip 20 is practicallycompletely formed in a portion of the substrate 2 which is free fromsaid foamed layer 4. In coupled condition, a first pair of verticallyactive contact surfaces 30-31 is formed on this portion which is freefrom the material of the foamed layer 4. A second pair of verticallyactive contact surfaces 32-33 is formed on the upper surface 23 of thelower lip 21 and on the material of the foamed layer 4. In this case,the second pair of vertically active contact surfaces 32-33 is at leastpartially situated underneath the upper lip 20, namely, in the actualgroove 17, thus, proximally in respect to the groove opening 22.

One of the reinforcement layers 9 extends uninterruptedly in said lowerlip 21, whereas the second of said reinforcement layers 8 extends in thematerial of said tongue 19. In this manner, material portions whichprotrude from the edges 14-15 will be additionally supported. Herein,also the presence of a portion of a non-foamed layer 5-6-7 in the tongue19 as well as in the lower lip 21 is advantageous. The stability of theupper lip 20 is guaranteed by the non-foamed layers 5-7 present there.

The foamed layer 4, as well as the first and second non-foamed layers5-6, are free from plasticizer or contain a plasticizer content of lessthan 12 phr. The third non-foamed layer 7, too, contains a plasticizercontent of less than 12 phr. Thus, the substrate 2 consists entirely oflayers 4-5-6-7 having a plasticizer content of less than 12 phr, ifplasticizer were present at all in the respective layers 4-5-6.

The layers of the substrate 2 represented here are attached to eachother by means of a thermal laminating process. The foamed layer 4 andthe first and second non-foamed layers 5-6 are obtained by means ofstrewing and consolidating thermoplastic material, whether or not in theform of granulate or so-called dry-blend.

FIG. 4 represents an example of a floor panel 1 according to theinvention, which shows the same layer composition as the floor panel 1of the FIGS. 1 to 3, with the exception of an additional foam layer 34on the lower side of the substrate. Here, this relates to a foam layer34 of cross-linked or interconnected polyethylene (XPE), which by meansof glue is attached to the remaining substrate portions, in particularto the non-foamed layer 6. In this case, this relates to a soft foam.

FIG. 4 further clearly shows that in this case the lower surface 29 ofthe upper lip 20 is formed entirely from the foamed layer 4, includingthe pair of vertically active contact surfaces 30-31 present there. Incoupled condition, in this example, a space 35 is present on the lowerside of the tongue 19, which space extends at least from the tip of thetongue 19 to beyond the upper lip 20. The reinforcement layers 8, 9 aresituated in the upper lip 20 as well as in the lower lip 21 and extenduninterruptedly in these.

In the case of FIG. 3 as well as FIG. 4, the locking groove 26 extendsup into the upper half of the substrate, namely up to above the level C.Preferably, the substrate 2 comprises at least one reinforcement layer8, which, as is the case here, extends uninterruptedly above saidlocking groove 26, whereas the possible other one of the reinforcementlayers 9, at least at the location of said locking groove 26, is omittedor is removed.

FIG. 5 represents an example with similar substrate portions as FIG. 4.However, the edge profile is different. The upper surface 23 of thelower lip 21 is formed partially in the material of the foamed layer 4,as well as in the material of the underlying non-foamed layer 6. Herein,the reinforcement layer 9 on the lower surface 11 of the foamed layer 4is interrupted at the location of the deepest zone 36 in said uppersurface 23. Preferably, as represented here, at the location of thisdeepest zone 36 at least half of the thickness of the whole ofnon-foamed layers 6 remains conserved at the lower surface 11. Thehorizontally active contact surfaces 27-28 for the major part are formedon the material of the foamed layer 4, however, for a part are alsoformed on the material of the underlying non-foamed layer 6. Thereinforcement layer 9 is interrupted in said lower lip 21, however,intersects the aforementioned horizontally active contact surfaces27-28.

In the example of FIG. 5, the lower surface 29 of the upper lip 20 isformed practically entirely in the foamed portion 4 of the substrate 2.In coupled condition, a first pair of vertically active contact surfaces30-31 is formed on this portion. A second pair of vertically activecontact surfaces 32-33 is formed on the upper surface 23 of the lowerlip 20, also on the material of the foamed layer 4. In this case, thesecond pair of vertically active contact surfaces 32-33 is situated atleast partially, and here even entirely, underneath the upper lip 21,namely, in the actual groove 17, or, in other words, proximally inrespect to the groove opening 22.

FIG. 6 for the substrate 2 shows a similar layer construction as theFIGS. 4 and 5. Above the decoration 3 in this case a wear layer 13 isapplied, which also comprises a superficial lacquer layer 37. Possiblyremaining tensions in the respective lacquer layer 37 hardly have anyeffect on the upper lip 21, as this shows portions of non-foamed layers5-7, which are free from plasticizers or have a plasticizer content ofless than 12 phr or still better of less than 7 phr. Moreover, areinforcement layers 8 extends uninterruptedly in this upper lip 20.

It is evident that a superficial lacquer layer 37 may form part of thewear layer 13 of any embodiment of floor panels 1 according to thepresent invention.

In the case of FIG. 6, the edge profile comprises coupling means 16with, at the tongue side 14, a convex lower side, and a cooperatingtherewith concave upper surface 23 of the lower lip 20 at the grooveside 15. At the location of the horizontally active contact surfaces27-28, an overlap 38 is provided in the contour of the coupling means16, such that in the coupled condition a tension is created at least onthese horizontally active contact surfaces 27-28. With the verticallyactive contact surfaces 30-31 on the upper side of the tongue 19 and thelower side of the upper lip 20, a tension may be created as well, eitherby a local overlap in the contour at that position, or that said overlap38 at the location of the horizontally active contact surfaces 27-28creates a tension which has an effect on the vertically active contactsurfaces 30-31. This latter preferably is achieved by somewhat incliningthe vertically active contact surfaces 30-31, as it is the case here.Preferably, these vertically active contact surfaces 30-31, in such caseand globally seen, enclose an angle A in the range of 2° to 15°.

It is clear that such inclination of the first pair of vertically activecontact surfaces 30-31 can be applied in any floor panel 1 with thecharacteristics of the invention, independently from the fact whether ornot an overlap 38 is applied in the contour of the coupling means 16.FIGS. 1 to 9 moreover all form examples of the application of a slighterinclination, namely of less than 10°. In the example of FIG. 10, astronger inclination than 10° is applied, however, still less than 45°,namely in the example approximately 30°.

Further, it is clear that an overlap 38 at the location of thehorizontally active contact surfaces 27-28 can also be applied in anyfloor panel 1 with the characteristics of the invention.

FIG. 7 represents an example wherein the substrate 2 is constructedsimilarly as in FIG. 6, however, with the exception of the additionalfoamed layer 34 on the lower side of the substrate 2. While in FIG. 6the vertically active contact surfaces 30-31 and the horizontally activecontact surfaces 27-28 are formed on the material of the foamed layer 4,in the case of FIG. 7 the vertically active contact surfaces 30-31 areformed on a non-foamed layer 5 present on the upper surface 10 of thefoamed layer 4. While in FIG. 6 the reinforcement layer 9 in the lowerlip 21 is interrupted, it extends uninterruptedly in the lower lip 21 ofthe embodiment of FIG. 7. The overlap 38 of the contours, realized onthe hook-shaped part 25 in FIG. 7, is more limited than in the case ofFIG. 6.

FIG. 8 represents an example with approximately the same substrateportions as the example of FIG. 2, however, wherein the third foamedlayer 7 mentioned there is omitted. The edge profiles show the sameshape as those of FIG. 4, however, here they are realized such that theupper surface of the upper lip 20 for the major part is formed in thenon-foamed layer 6 present on the lower surface 11 of the foam layer 4.The horizontally active contact surfaces 27-28 on the hook-shaped part25 are formed in the material of said foam layer 4, as well as in thematerial of the underlying non-foamed layer 6. The reinforcement layer 9is interrupted in said lower lip 21, however, intersects saidhorizontally active contact surfaces 27-28, in this case, approximatelyin the middle. Preferably, as represented here, at the location of thedeepest zone 36 in the upper surface of the lower lip 21, at least halfof the thickness of the whole of non-foamed layers 6 is maintained onthe lower surface 11 of the foamed layer 4.

FIG. 9 shows an example wherein the substrate 2 comprises a foamed layer4 with a reinforcement layer 8 situated on the upper surface 10 of thefoamed layer 4, and wherein the substrate 2 further also comprises a notyet foamed layer 7A on said upper surface 10. In this case, the appliednon-foamed layer 7A shows the composition of the third non-foamed layer7 mentioned within the scope of the preceding examples, namely aplasticizer content of more than the possible plasticizer content in thefoamed layer 4. In this case, the foamed layer 4 is obtained by means ofconsolidating and foaming strewn powders of thermoplastic material,whereas the non-foamed layer 7A is obtained by liquid application orcalendering of thermoplastic material onto the already formed foamedlayer 4. The substrate 2 comprises only one reinforcement layer 8,namely on the upper surface 10 of said foamed layer 4.

For the major part thereof, the edge profiles represented in the exampleof FIG. 9 are formed in the foamed layer 4. In this example, in coupledcondition a space 35 is present on the lower side of the tongue 19,which space extends at least from the tip of the tongue 19 to beyond theupper lip 20. The reinforcement layer 8 is situated in the upper lip 20.On the upper surface 23 of the lower lip 20, however, more distally thanthe upper lip 21, namely beyond the groove opening, vertically activecontact surfaces 32-33 are situated. In this case, even the uppersurface of the hook-shaped part 25 forms a vertically active contactsurface 39. This latter is not necessarily so.

FIG. 10 represents another embodiment wherein a similar construction ofthe substrate 2 is applied as in FIG. 9, however, wherein the, in thiscase single, reinforcement layer 8 is embedded in the foamed layer 4, inthis case centrally or approximately central, in the foamed layer 4.

In the edge profiles of FIG. 10, a pair of vertically active contactsurfaces 30-31 on the lower side 29 of the upper lip 20 partially isformed on said foamed layer 4 and partially on said non-foamed layer 6.In coupled condition, in this example, a space 35A is present on thelower side of the tongue 19, which space extends from the tip of thetongue 19 up to a position underneath the upper lip 21. On the uppersurface 23 of the lower lip 21, a pair of vertically active contactsurfaces 32-33 is formed, which extends from in the actual groove 17 tobeyond the upper lip 20. Between this pair of vertically active contactsurfaces 32-33 and the horizontally active contact surfaces 27-28 formedon the hook-shaped part 25, a space 40 is provided.

FIG. 10 further also shows that deep embossments 41 can be formed on thesurface of the floor panel 1. In this case, this relates at least toembossments 41 with a depth D of approximately 0.4 mm for forming achamfer. FIG. 10 clearly shows that the non-foamed layer 7A receives aportion of the embossment 41, as in this case a non-foamed layer 7A hasbeen chosen for, with a higher plasticizer content than the foamed layer4. The decoration 3 which is present follows the embossment 41.

In connection with the contour overlaps 38 represented in FIGS. 6 and 7,it is noted again that similar contour overlaps of course are possiblein all embodiments. In the coupled condition of two of such floorpanels, such contour overlaps 38 may lead to the presence of a bent-outlower lip 21, as mentioned in the introduction, or to a materialcompression at least at the location of the horizontally active contactsurfaces 27-28.

In all examples, the depth G of the groove 17 is less than the thicknessT1 of the foamed layer 4. Such profile is preferred in view of stabilityof the coupling and, in particular, of the upper lip 20, however, it isnot indispensable. This is of particular importance when use is made ofa superficial lacquer layer 37 as a part of the wear layer 13.

As already mentioned, in all examples the vertically active contactsurfaces 30-31 on the upper side of the tongue 19 and the lower surface29 of the upper lip are made inclined. In the case of FIGS. 1 to 9,rather limited, namely with an angle between 2° and 15°, or even between2 and 7° in the cases of the FIGS. 1 to 8. In the case of FIG. 10, aninclination is applied which is larger than 15°, namely in this caseapproximately 30°.

In all examples, the lower lip 21 of the groove 17 protrudes to beyondthe upper lip 20 over a distance E which is at least two times thethickness T1 of the foamed layer A. Although the lower lip 21 does notnecessarily has to protrude, and also coupling means 16 can be appliedwith a shorter or equally long lower lip, such as, for example, thecoupling means of WO 97/47834 or WO 01/98603, a protruding lower lip 21is preferred. The extent of protrusion of the lower lip, or the distanceE, preferably is at least one time the thickness T1 of the foamed layer4. The extent of protrusion preferably is less than one and a half timethe overall thickness T of the floor panel 1, and preferably is morethan half of the thickness T of the floor panel 1, as it here is thecase in all examples.

Although in the figures each time a chamfer is represented in the formof an inclination at the upper edge of the floor panels 1, this is notindispensable within the scope of the invention. The respective upperedges can also be realized without a chamfer or with another type ofchamfer. According to a particular embodiment, use can be made of achamfer performed through said decoration 3 up into the underlyingsubstrate portion. The respective substrate portion as such thenpossibly can be provided with a matching or possibly contrasting uniformcoloration, or the surface of the inclination can be provided with aseparate decorative covering, for example, a lacquer layer or a print.For examples of such chamfers reference is made to WO 2012/004701.

FIG. 11 represents the short edges 42-43 of the floor panel 1 of FIGS. 1to 3. Herein, an edge profile with a male part 44 and a female part 45is applied, which allows coupling two of such floor panels 1 at therespective edges 42-43 by means of a downward movement M of the malepart 44 in the female part 45, wherein in coupled condition a locking iseffected in a horizontal direction H as well as in a vertical directionV. The combination of a turnable profile at the long edges 14-15, forexample, according to any of the FIGS. 2 to 10, and a downwardcoupleable profile at the short edges 44-45, for example, according toany of the FIGS. 11 to 14, leads to the creation of a floor panel 1which can be coupled by means of a so-called fold-down movement. Herein,the long edges 14-15 are provided in each other by a turning movement W,wherein by this turning movement W at the short edges 42-43 a downwardmovement M is created, which provides the male part 44 present there inthe female part 45.

The example of such downward coupleable profile represented here is madein one piece with the material of the floor panel 1 and comprises, inorder to effect the locking, a cooperating snap hook 46 and undercut 47,as well as a hook-shaped part 25 on the lower lip 21, which in this casealso comprises an undercut 47A. The undercut 47A at the hook-shaped part25 is made such that it forms an angle A1 with the vertical of 1° to10°, and preferably approximately 5°. The locking groove 26 whichcooperates with the aforementioned hook-shaped part 25 is entirelypositioned underneath the reinforcement layer 8 at the upper surface 10of the foamed layer 4.

The aforementioned cooperating snap hook 46 and undercut 47 in this casein the coupled condition comprise cooperating vertically active contactsurfaces 30-31, which are partially realized in the foamed layer 4 andpartially in the non-foamed layer 5 situated there above. Thehorizontally as well as vertically active contact surfaces 27A-28A ofthe hook-shaped part 25 are realized entirely in the material of thefoamed layer 4.

The upper surface 23 of the lower lip 21 consists entirely of materialof the foamed layer 4. In coupled condition, the edge profiles also havevertically active contact surfaces 32-33 formed on this upper surface23. Between these vertically active contact surfaces 32-33 andhorizontally active contact surfaces 27A-28A, a space 40 is present. Thelower reinforcement layer 9 extends in one piece in the lower lip 21,and the upper reinforcement layer 8 extends in one piece over theaforementioned locking groove 26.

At the lower side of the lower lip 21, a recess 48 is realized whichextends at least partially underneath said space 40. This latterprovides for a smoother coupling, even with the represented overlap 38in the contours.

FIG. 12 represents a variant of profiles which can be coupled into eachother with a downward movement M, wherein the snap hook 46 is situatedat the distal end 24 of the lower lip 21 of the female part 45, whereasthe undercut 47 is provided in the male part 44. Here, too, the uppersurface 23 of the lower lip 21 is formed entirely from the material ofthe foamed layer 4, and in coupled condition the edge profiles comprisevertically active contact surfaces 32-33 formed on this upper surface23. Between these vertically active contact surfaces 32-33 andhorizontally active contact surfaces 27A-28A, a space 40 is present. Thelower reinforcement layer 9 extends in one piece in the lower lip 21,and the upper reinforcement layer 8 extends in one piece over saidlocking groove 26.

In the example of FIG. 12, too, the hook-shaped part 25 is realized withan undercut 47A, wherein this undercut 47A is realized such that itforms an angle A1 with the vertical of 1° to 10°, and preferablyapproximately 5°. It is evident that in FIG. 11 as well as in FIG. 12such undercut 47A at the location of the horizontally active contactsurfaces 27A-28A on the hook-shaped part 25 is not necessary and thatjust as well contact surfaces 27-28 can be used which are vertical orwhich are inclined less steeply than the vertical, for example, with aninclination comparable to that of the horizontally active contactsurfaces 27-28 of FIGS. 1 to 10, namely an inclination wherein therespective contact surfaces 27-28 enclose an angle with the horizontalof 45° to 90°.

FIG. 13 represents a variant of downwardly coupleable profiles, whereinthe snap hook 46 is formed by a separate insert 49, which, in this case,is provided in the male part 44. Such separate insert 49 preferably isalso formed of thermoplastic material, for example, at least of PVC orABS (Acrylonitrile butadiene styrene), and in coupled conditionpreferably, such as here, comprises a vertically active contact surface50 with the material of a non-foamed layer 7 of the female part 45. Inthis manner, an exact vertical positioning of the male part 44 in thefemale part 45 can be achieved. In this example, said separate insert 49is situated in a seat with upper walls 51 which are formed of non-foamedmaterial, and lower walls 52 which are formed of foamed material.

FIG. 14 represents still another example of profiles which can becoupled into each other in downward direction, wherein in this examplethe undercut 47 is formed by a separate insert 49, which to this aim, inthis case, is provided in the female part 45. Such separate insert 49preferably is also formed of thermoplastic material, for example, atleast of PVC or ABS (Acrylonitrile butadiene styrene) and, in coupledcondition, such as here, preferably comprises a vertically activecontact surface 50 with the material of a foamed layer of the male part44. Said separate insert 49 is situated in a seat with upper walls 51which are formed of non-foamed material, and lower walls 52 which areformed of foamed material.

Relating to FIGS. 13 and 14, it is also noted that it is advantageous toalso have non-foamed material above the seat of the separate insert 49,preferably with a plasticizer content of less than 12 phr, and stillbetter of less than 7 phr. Namely, in this manner, it is achieved thatthe risk of deformation of the upper surface of the floor panels 1 dueto force effects during coupling or in the coupled condition isminimized.

It is clear that the hook-shaped part 25, the cooperating therewithlocking groove 26 at the male part 44, respectively, in the examples ofFIGS. 11 to 14 respectively extends up into the upper half of thesubstrate, thus, to above the level C.

It is clear that the edge profiles of FIGS. 11 to 14 can be realized invarious alternative manners, wherein the contact surfaces present can berealized on different substrate portions, similar to the in theintroduction herein above-mentioned possibilities for tongues and/orgrooves, however, wherein the tongue 19 is replaced by a whether or notone-piece snap hook 46, and the groove 17 is formed by an undercut 47,whether or not provided by a separate insert 49.

Further, it is clear that the edge profiles from FIGS. 2 through 10 canalso be applied on the short edges 42-43, wherein then the same or notthe same profile is applied at the long edges 14-15 as well as at theshort edges 42-43.

It is also noted that edge profiles, such as those of FIGS. 11 to 14, ofcourse also can be applied in other substrates 2 with thecharacteristics of the invention, such as, for example, in thesubstrates 2 of FIGS. 4 to 6 and 8 to 10.

FIG. 15 schematically represents some steps in a possible method formanufacturing floor panels 1.

The method comprises the step S1 of providing a thermoplastic material53. In this case, this step S1 is performed three times by means ofthree separate strewing treatments 54A-54B-54C. The method further alsocomprises the step S2 of providing a prefabricated sheet, in this casetwo glass fiber mats 8-9, which respectively are situated between two ofthe aforementioned three strewn materials.

In a first strewing treatment 54A, the material is strewn for a firstlayer which is not to be foamed. In a second strewing treatment 54B, thematerial is strewn for a first layer which is to be foamed. In a thirdstrewing treatment 54C, the material is strewn for a second layer whichis not to be foamed. It is clear that the composition provided by meansof the second strewing treatment 54B is at least different from that ofthe first and third strewing treatments 54A-54C. Said glass fleeces 8-9form an effective separation between these materials. Moreover, theycarry the strewn material, together with the underlying transport belt55, through the continuous production process.

It is clear that the strewing treatments 54A-54B-54C described hereinabove can be applied for obtaining a substrate portion with a centralfoamed layer 4, which, on both surfaces 10-11, is provided with a glassfiber mat 8-9 and an adjacent thereto non-foamed layer 5-6, similar tothe foamed layer 4, reinforcement layers 8-9 and a first and secondnon-foamed layer 5-6 from the examples of FIGS. 2 to 8 and 11 to 14.

In a subsequent step S3, at least the material of the second strewingtreatment 54B is foamed in the presence of the aforementioned glassfiber mats 8-9. This is performed between the belts of a double-beltpress 56. The double-belt press 56 is heated in a first part 57 andcooled in a second part 58. The obtained foam can have an impact on theheat transfer in the press, considering that it can function as aninsulator. In order to avoid an overly large impact on the line speed,the strewn material preferably is pre-heated before being treated in thepress.

Following the press treatment, in a step 4 a further substrate layer 60can be deposited on the surface of the obtained substrate portion 59, inliquid condition, for example by means of a so-called calenderingtreatment 61. Referring to FIGS. 2 to 7, it is also noted that thisfurther substrate layer 60, for example, may relate to the mentionedthere third, non-foamed layer 7.

It is noted that, in a step not further represented here, the method canbe continued by applying a decoration 3, possibly in the form of aprinted foil 12, and a wear layer 13, which possibly can comprises alacquer layer 37.

As described in the introduction, it is possible to connect one or moreof the prefabricated sheets, namely, the glass fiber mats 8-9, to thethermoplastic material 53 under tension, for example, by pulling at itin longitudinal direction.

The present invention further relates to several preferred embodimentsas defined in the below numbered paragraphs:

1.—Floor panel with a substrate (2) and a decoration (3) providedthereon, characterized in that the substrate (2) comprises at least afoamed layer (4) of thermoplastic material and at least a reinforcementlayer (8).

2.—Floor panel according to paragraph 1, characterized in that saidfoamed layer (4) relates to a foamed PVC layer.

3.—Floor panel according to paragraph 2, characterized in that said PVCis free from plasticizers or contains a plasticizer content of 12 phr orless.

4.—Floor panel according to any of the preceding paragraphs,characterized in that the foamed layer (4) is obtained at least by meansof a mechanical foaming process.

5.—Floor panel according to any of the preceding paragraphs,characterized in that the foamed layer (4) is obtained at least by meansof a chemical foaming process.

6.—Floor panel according to any of the preceding paragraphs,characterized in that said reinforcement layer (8) relates to a glassfiber layer having a weight of at least 30 g/m² and preferably less than100 g/m².

7.—Floor panel according to any of the preceding paragraphs,characterized in that said reinforcement layer (8) is situated on one ofthe surfaces (10) of the foamed layer (4).

8.—Floor panel according to any of the preceding paragraphs,characterized in that said substrate (2) further also encloses a secondreinforcement layer (9), wherein the respective reinforcement layers(8-9) enclose at least a portion of said foamed layer (4).

9.—Floor panel according to any of the preceding paragraphs,characterized in that said substrate (2) further also comprises at leasta non-foamed layer (5-6) of thermoplastic material.

10.—Floor panel according to paragraph 9, characterized in that saidnon-foamed layer (5-6) is adjacent to one of the surfaces (10-11) ofsaid foamed layer (4) and/or to the reinforcement layer (8-9) whichpossibly is provided on that surface (10-11).

11.—Floor panel according to paragraph 9 or 10, characterized in thatsaid non-foamed layer (5-6) comprises the same thermoplastic material assaid foamed layer (4).

12.—Floor panel according to any of the paragraphs 9 to 11,characterized in that said non-foamed layer (5-6) is free fromplasticizers or contains a plasticizer content that is lower than 12phr.

13.—Floor panel according to any of the paragraphs 9 to 12,characterized in that the aforementioned substrate (2) further alsocomprises at least a second non-foamed layer (5-6) of thermoplasticmaterial, wherein the respective non-foamed layers (5-6) enclose atleast a portion of said foamed layer (4).

14.—Floor panel according to paragraph 13, characterized in that saidsubstrate (2) further also comprises at least a third non-foamed layer(7) of thermoplastic material, wherein this third non-foamed layer (7)is situated between the decoration (3) and at least one of theaforementioned first and second non-foamed layers (5-6).

15.—Floor panel according to any of the preceding paragraphs,characterized in that said substrate (2) further also comprises at leasta layer (7) of thermoplastic material, wherein this thermoplasticmaterial contains plasticizer with a content higher than the possibleplasticizer content in said foamed layer.

16.—Floor panel according to paragraph 15, characterized in that saidlayer (7) with the higher plasticizer content is situated between saidfoamed layer (4) and said decoration (3).

17.—Floor panel according to paragraph 15 or 16, characterized in thatsaid layer (7) with the higher plasticizer content contains the samethermoplastic material as said foamed layer (4).

18.—Floor panel according to any of the paragraphs 15 to 17,characterized in that said layer (7) with the higher plasticizer contentis not foamed.

19.—Floor panel according to any of the preceding paragraphs,characterized in that said decoration (3) comprises a printed motif.

20.—Floor panel according to paragraph 19, characterized in that saidprinted motif is provided on a thermoplastic foil (12).

21.—Floor panel according to any of the preceding paragraphs,characterized in that the floor panel (1) further also comprises atranslucent or transparent wear layer (13), which is provided above saiddecoration (3).

22.—Floor panel according to paragraph 21, characterized in that saidwear layer (13) comprises a superficial lacquer layer (37).

23.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), wherein atleast one of said edges (15) is provided with a groove (17), the deepestpoint (18) of which is situated in said foamed layer (4).

24.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a horizontaldirection (H) in the plane of the panels (1) and perpendicular to theedges (14-15), wherein at least one of said edges (14-15) is providedwith an upward-directed hook-shaped looking part (25), wherein saidlocking part (25) extends at least partially in a portion of thesubstrate (2) which is free from said foamed layer (4).

25.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), wherein atleast one of said edges (14-15) is provided with a groove (17), whereinthis groove (17) is bordered by an upper lip (20) and a lower lip (21)and wherein the upper surface (23) of the lower lip (21) is at leastpartially formed in said foamed layer (4).

26.—Floor panel according to paragraph 25, characterized in that saidupper surface (23) of the lower lip (21) also is at least partiallyformed in a portion of the substrate (2) which is free from said foamedlayer (4).

27.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), wherein atleast one of said edges (14-15) is provided with a groove (17), whereinthis groove (17) is bordered by an upper lip (20) and a lower lip (21)and wherein the lower surface (29) of the upper lip (20) is at leastpartially formed in said foamed layer (4).

28.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), wherein atleast one of said edges (14-15) is provided with a groove (17), whereinthis groove (17) is bordered by an upper lip (20) and a lower lip (21)and wherein the lower surface (29) of the upper lip (20) is at leastpartially formed in a portion of the substrate (2) which is free fromsaid foamed layer (4).

29.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), as well asin a horizontal direction (H) in the plane of the floor panels (1) andperpendicular to the respective edges (14-15), wherein said locking invertical direction (V) is provided by at least a pair of cooperatingcontact surfaces (30-31) formed in said foamed layer (4), whereas saidlocking in horizontal direction (H) is provided by at least a pair ofcooperating contact surfaces (27-28) formed by a portion of thesubstrate (2) which is free from said foamed layer (4).

30.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), as well asin a horizontal direction (H) in the plane of the floor panels (1) andperpendicular to the respective edges (14-15), wherein said locking invertical direction (V) is provided by two pairs of cooperating contactsurfaces (30-31, 32-33), wherein a first pair (32-33) is formed in saidfoamed layer (4), whereas a second pair (30-31) is formed by a portionof the substrate (2) which is free from said foamed layer (4).

31.—Floor panel according to any of the preceding paragraphs,characterized in that the respective floor panel (1), on at least twoopposite edges (14-15), is provided with coupling means (16) allowing tocouple two of such floor panels (1) to each other, wherein at therespective edges (14-15) a locking is effected at least in a verticaldirection (V) perpendicular to the plane of the panels (1), wherein atleast one of said edges (14-15) is provided with a groove (17), whereinthis groove (17) is bordered by an upper lip (20) and a lower lip (21)and wherein said reinforcement layer (9) extends in said upper lip (20).

32.—Floor panel according to any of the preceding paragraphs,characterized in that the floor panel (1), seen in thickness, comprisesat least 2 millimeters of thermoplastic material which is free fromplasticizer or has a plasticizer content of less than 12 phr.

33.—Floor panel according to any of the preceding paragraphs,characterized in that the floor panel (1), seen in thickness, comprisesat least 4 millimeters of foamed thermoplastic material.

34.—Floor panel according to any of the preceding paragraphs,characterized in that said substrate (2) for at least 40 percent of itsthickness (T2) consists of said foamed layer (4), wherein the remainingsubstrate material preferably is unfoamed.

35.—Floor panel according to any of the preceding paragraphs,characterized in that the respective layers of the substrate (2) areattached to each other by means of a thermal lamination process.

36.—Floor panel according to any of the preceding paragraphs,characterized in that one or more of the thermoplastic layers of thesubstrate (2) are obtained by means of strewing and consolidating atleast said thermoplastic material (53), whether or not in granulateform.

37.—Floor panel according to any of the preceding paragraphs,characterized in that the substrate (2) comprises an additional foamlayer (34) at its lower side.

38.—Method for manufacturing a floor panel, wherein this floor panelcomprises at least a substrate (2) and a decoration (3) providedthereon, wherein the method for forming the substrate (2) comprises atleast the following steps:

-   -   the step (S2) of providing a prefabricated sheet, preferably a        glass fiber layer (8-9)    -   the step (S1) of providing a thermoplastic material (53);    -   the step (S3) of foaming said thermoplastic material (53) for        forming a foamed substrate or substrate portion (59), wherein        the foaming takes place in the presence of said prefabricated        sheet (8-9).

39.—Method according to paragraph 38, characterized in that said step(S1) of providing thermoplastic material comprises at least a strewingtreatment (54B).

40.—Method according to paragraph 39, characterized in that saidprefabricated sheet (8-9) forms a carrier for the strewn thermoplasticmaterial.

41.—Method according to any paragraph 39 or 40, characterized in thatsaid prefabricated sheet (8-9) forms a separation between said strewnthermoplastic material and a further layer of thermoplastic material.

42.—Method according to paragraph 41, characterized in that said furtherlayer also consists of strewn thermoplastic material.

43.—Method according to any of the paragraphs 41 or 42, characterized inthat the composition of the thermoplastic material (53) of said furtherlayer differs from the composition of said foamed layer.

44.—Method according to any of the paragraphs 38 to 43, characterized inthat said prefabricated sheet (8-9) relates to a reinforcement layer.

45.—Method according to any of the paragraphs 38 to 44, characterized inthat said prefabricated sheet (8-9) is connected under tension to saidthermoplastic material (53).

46.—Method according to paragraph 45, characterized in that duringfoaming, consolidating and/or connecting a shrinkage occurs at least insaid foamed layer (4) and that said tension in the prefabricated sheet(8-9) results in a strain in this sheet which is at least 20% of saidshrinkage.

47.—Method according to any of the paragraphs 38 to 46, characterized inthat the method further also comprises the step (S4) of providing atleast another substrate layer (60) of thermoplastic material, whereinthis thermoplastic material contains plasticizer with a content higherthan the possible plasticizer content in said foamed layer.

48.—Method according to paragraph 47, characterized in that saidsubstrate layer (60) is provided on said substrate portion (59) inliquid condition.

49.—Method according to any of the paragraphs 38 to 48, characterized inthat it further also comprises the step of providing a decoration (3) onsaid substrate or substrate portion (59).

50.—Method according to paragraph 49, characterized in that saiddecoration (3) comprises a printed foil (12).

51.—Method according to any of the paragraphs 38 to 50, characterized inthat it is applied for manufacturing a floor panel (1) with thecharacteristics of any of the paragraphs 1 to 37.

The present invention is in no way limited to the herein above-describedembodiments, on the contrary may such floor panels and methods berealized in various manners, without leaving the scope of the presentinvention.

The invention claimed is:
 1. A floor panel with a substrate and adecoration provided thereon, wherein the substrate comprises a pluralityof substrate layers, including at least a foamed layer of thermoplasticmaterial and at least a reinforcement layer, wherein said reinforcementlayer is situated on one of the surfaces of the foamed layer, whereinsaid plurality of substrate layers further also comprises at least anon-foamed layer of thermoplastic material, wherein said non-foamedlayer is adjacent to the reinforcement layer which is provided on one ofthe surfaces of the foamed layer so that the reinforcement layer is atan interface of the foamed layer and the non-foamed layer, and whereinthe floor panel on at least two opposite side edges is provided withcoupling means which allow coupling of the floor panel to an adjacentfloor panel, wherein the side edges between the coupling of the floorpanel and the adjacent floor panel are configured in a way such that alocking is effected at least in a vertical direction perpendicular to aplane of the floor panel and the adjacent floor panel, as well as in ahorizontal direction in a plane of the floor panel and the adjacentfloor panel and perpendicular to the side edges, wherein said couplingmeans comprise at least a groove, which groove cooperates with a tongueon an opposite edge of the adjacent floor panel, wherein saidreinforcement layer extends in said tongue, wherein said plurality ofsubstrate layers includes at least one of the plurality of substratelayers having less than 12 parts per hundred (phr) plasticizer.
 2. Thefloor panel of claim 1, wherein said foamed layer relates to a foamedPVC layer.
 3. The floor panel of claim 2, wherein said at least one ofthe plurality of substrate layers having less than 12 phr plasticizer isthe foamed layer, wherein the PVC is free from plasticizers or containsa plasticizer content of 12 phr or less.
 4. The floor panel of claim 1,wherein said reinforcement layer relates to a glass fiber layer having aweight of at least 30 g/m².
 5. The floor panel of claim 4, wherein saidglass fiber layer has the weight of less than 100 g/m².
 6. The floorpanel of claim 1, wherein said substrate further also encloses a secondreinforcement layer, wherein the respective reinforcement layers encloseat least a portion of said foamed layer.
 7. The floor panel of claim 1,wherein said non-foamed layer comprises the same thermoplastic materialas said foamed layer.
 8. The floor panel of claim 1, wherein said atleast one of the plurality of substrate layers having less than 12 phrplasticizer is the non-foamed layer, said non-foamed layer being freefrom plasticizers or contains a plasticizer content that is lower than12 phr.
 9. The floor panel of claim 1, wherein the aforementionedsubstrate further also comprises at least a second non-foamed layer ofthermoplastic material, wherein the respective non-foamed layers encloseat least a portion of said foamed layer.
 10. The floor panel of claim 9,wherein said substrate further also comprises at least a thirdnon-foamed layer of thermoplastic material, wherein this thirdnon-foamed layer is situated between the decoration and at least one ofthe aforementioned first and second non-foamed layers.
 11. The floorpanel of claim 1, wherein said substrate further also comprises at leasta layer of thermoplastic material, wherein this thermoplastic materialcontains plasticizer with a content higher than the plasticizer contentin said foamed layer.
 12. The floor panel of claim 1, wherein the atleast one of the plurality of substrate layers with less than 12 partsper hundred (phr) plasticizer, has a content of plasticizers between 1and 6 phr.
 13. A method for manufacturing a floor panel, wherein thefloor panel comprises at least a substrate and a decoration providedthereon, wherein the method for forming the substrate comprises at leastthe following steps: providing a thermoplastic material to form thesubstrate, the substrate comprising a plurality of substrate layers;providing a reinforcement sheet above or below the thermoplasticmaterial; foaming said thermoplastic material of one of said pluralityof substrate layers for forming a foamed substrate or substrate portion,wherein the foaming takes place in the presence of said reinforcementsheet; providing a non-foamed layer of thermoplastic material of one ofsaid plurality of substrate layers, wherein said non-foamed layer isadjacent to the reinforcement sheet which is provided on the surface ofthe foamed substrate or substrate portion so that the reinforcementsheet is at an interface of the foamed layer and the non-foamed layer;and wherein the floor panel is configured in a way such that on at leasttwo opposite side edges the floor panel is provided with coupling meanswhich allow coupling of the floor panel to an adjacent floor panel,wherein the side edges between the coupling of the floor panel and theadjacent floor panel are configured in a way such that a locking iseffected at least in a vertical direction perpendicular to a plane ofthe floor panel and the adjacent floor panel, as well as in a horizontaldirection in a plane of the floor panel and the adjacent floor panel andperpendicular to the side edges, wherein said coupling means comprise atleast a groove, which groove cooperates with a tongue on an oppositeedge of a similar floor panel, wherein said reinforcement layer extendsin said tongue, wherein said plurality of substrate layers includes atleast one of the plurality of substrate layers having less than 12 partsper hundred (phr) plasticizer.
 14. The method of claim 13, wherein saidstep of providing thermoplastic material comprises at least a strewingtreatment.
 15. The method of claim 14, wherein said reinforcement sheetforms a carrier for the strewn thermoplastic material.
 16. The method ofclaim 14, wherein said reinforcement sheet forms a separation betweensaid strewn thermoplastic material and a further layer of thermoplasticmaterial.
 17. The method of claim 16, wherein said further layer alsoconsists of strewn thermoplastic material.
 18. The method of claim 16,wherein the composition of the thermoplastic material of said furtherlayer differs from the composition of said foamed layer.
 19. The methodof claim 13, wherein the reinforcement sheet is a glass fiber layer.